-<p>Because of the incompatible change to 1.0 series, please refer new

-documentation for instructions of how to use Gnuk Token.

-(New documentation can be used for 1.0.x, too.)</p>

+</footer><!-- /.post-info --><p>August 8th is Happy Hacking Day in Japan. On that day, <a class="reference external" href="http://www.gniibe.org/memo/development/gnuk/hardware/stm32-nucleo-f103.html">an article (in Japanese)</a> was published at www.gniibe.org, to resist bulk surveillance.</p>

+<p>This article is English translation of the article. The purpose of this article is to make TRNG (True Random Number Generator). A bit of soldering is required, but it's not that hard, even for a beginner of electronics. We use the board &quot;STM32 Nucleo F103RB&quot;, which is cheap and good. Thanks to Kenji Rikitake to enhance Chopstx to support of this board.</p>

+<div class="section" id="photo-of-the-final-result">

+<h2>Photo of the final result</h2>

+<p>STM32 Nucleo F103RB consists two parts: the dongle (ST-Link/V2-1) and

+the target board of STM32F103.</p>

+<p>In this photo, the dongle (ST-Link/V2-1) is not separated yet, it will

-</footer><!-- /.post-info --> <p>It is not recommended to use CIR remote controller for PIN input. But, please note that it is easy way to add input support for a resource limited board (like STM8S Discovery Kit).</p>

-<p>Here is a list of URLs for the infomation about consumer IR remote controller:</p>

+</footer><!-- /.post-info --> <p>It is not recommended to use CIR remote controller for PIN input. But, please note that it is easy way to add input support for a resource limited board (like STM8S Discovery Kit).</p>

+<p>Here is a list of URLs for the infomation about consumer IR remote controller:</p>

-</footer><!-- /.post-info --> <p>This document shows that how you can make your own hardware of Gnuk USB Token by yourself. For software installation and configuration, see README of Gnuk distribution.</p>

-<p>Note that it requires some skill of electronics and handicraft.</p>

-<p>I assume you make two, one for yourself, and another for your friend ...</p>

+</footer><!-- /.post-info --> <p>This document shows that how you can make your own hardware of Gnuk USB Token by yourself. For software installation and configuration, see README of Gnuk distribution.</p>

+<p>Note that it requires some skill of electronics and handicraft.</p>

+<p>I assume you make two, one for yourself, and another for your friend ...</p>

+&lt;p&gt;This article is English translation of the article. The purpose of this article is to make TRNG (True Random Number Generator). A bit of soldering is required, but it's not that hard, even for a beginner of electronics. We use the board &amp;quot;STM32 Nucleo F103RB&amp;quot;, which is cheap and good. Thanks to Kenji Rikitake to enhance Chopstx to support of this board.&lt;/p&gt;

+&lt;div class="section" id="photo-of-the-final-result"&gt;

+&lt;h2&gt;Photo of the final result&lt;/h2&gt;

+&lt;p&gt;STM32 Nucleo F103RB consists two parts: the dongle (ST-Link/V2-1) and

+the target board of STM32F103.&lt;/p&gt;

+&lt;p&gt;In this photo, the dongle (ST-Link/V2-1) is not separated yet, it will

+&lt;p&gt;This article is English translation of the article. The purpose of this article is to make TRNG (True Random Number Generator). A bit of soldering is required, but it's not that hard, even for a beginner of electronics. We use the board &amp;quot;STM32 Nucleo F103RB&amp;quot;, which is cheap and good. Thanks to Kenji Rikitake to enhance Chopstx to support of this board.&lt;/p&gt;

+&lt;div class="section" id="photo-of-the-final-result"&gt;

+&lt;h2&gt;Photo of the final result&lt;/h2&gt;

+&lt;p&gt;STM32 Nucleo F103RB consists two parts: the dongle (ST-Link/V2-1) and

+the target board of STM32F103.&lt;/p&gt;

+&lt;p&gt;In this photo, the dongle (ST-Link/V2-1) is not separated yet, it will

+&lt;p&gt;This article is English translation of the article. The purpose of this article is to make TRNG (True Random Number Generator). A bit of soldering is required, but it's not that hard, even for a beginner of electronics. We use the board &amp;quot;STM32 Nucleo F103RB&amp;quot;, which is cheap and good. Thanks to Kenji Rikitake to enhance Chopstx to support of this board.&lt;/p&gt;

+&lt;div class="section" id="photo-of-the-final-result"&gt;

+&lt;h2&gt;Photo of the final result&lt;/h2&gt;

+&lt;p&gt;STM32 Nucleo F103RB consists two parts: the dongle (ST-Link/V2-1) and

+the target board of STM32F103.&lt;/p&gt;

+&lt;p&gt;In this photo, the dongle (ST-Link/V2-1) is not separated yet, it will

+&lt;p&gt;This article is English translation of the article. The purpose of this article is to make TRNG (True Random Number Generator). A bit of soldering is required, but it's not that hard, even for a beginner of electronics. We use the board &amp;quot;STM32 Nucleo F103RB&amp;quot;, which is cheap and good. Thanks to Kenji Rikitake to enhance Chopstx to support of this board.&lt;/p&gt;

+&lt;div class="section" id="photo-of-the-final-result"&gt;

+&lt;h2&gt;Photo of the final result&lt;/h2&gt;

+&lt;p&gt;STM32 Nucleo F103RB consists two parts: the dongle (ST-Link/V2-1) and

+the target board of STM32F103.&lt;/p&gt;

+&lt;p&gt;In this photo, the dongle (ST-Link/V2-1) is not separated yet, it will

</summary></entry><entry><title>A Seminar in Japan</title><link href="http://www.fsij.org/gnuk/seminar-2012-in-japan.html" rel="alternate"></link><updated>2012-11-22T13:38:00+09:00</updated><author><name>webmaster@fsij.org</name></author><id>tag:www.fsij.org,2012-11-22:gnuk/seminar-2012-in-japan.html</id><summary type="html">&lt;p&gt;We will have a seminar for FST-01.&lt;/p&gt;

+&lt;p&gt;This article is English translation of the article. The purpose of this article is to make TRNG (True Random Number Generator). A bit of soldering is required, but it's not that hard, even for a beginner of electronics. We use the board &amp;quot;STM32 Nucleo F103RB&amp;quot;, which is cheap and good. Thanks to Kenji Rikitake to enhance Chopstx to support of this board.&lt;/p&gt;

+&lt;div class="section" id="photo-of-the-final-result"&gt;

+&lt;h2&gt;Photo of the final result&lt;/h2&gt;

+&lt;p&gt;STM32 Nucleo F103RB consists two parts: the dongle (ST-Link/V2-1) and

+the target board of STM32F103.&lt;/p&gt;

+&lt;p&gt;In this photo, the dongle (ST-Link/V2-1) is not separated yet, it will

+&lt;p&gt;This article is English translation of the article. The purpose of this article is to make TRNG (True Random Number Generator). A bit of soldering is required, but it's not that hard, even for a beginner of electronics. We use the board &amp;quot;STM32 Nucleo F103RB&amp;quot;, which is cheap and good. Thanks to Kenji Rikitake to enhance Chopstx to support of this board.&lt;/p&gt;

+&lt;div class="section" id="photo-of-the-final-result"&gt;

+&lt;h2&gt;Photo of the final result&lt;/h2&gt;

+&lt;p&gt;STM32 Nucleo F103RB consists two parts: the dongle (ST-Link/V2-1) and

+the target board of STM32F103.&lt;/p&gt;

+&lt;p&gt;In this photo, the dongle (ST-Link/V2-1) is not separated yet, it will

+</footer><!-- /.post-info --> <p>August 8th is Happy Hacking Day in Japan. On that day, <a class="reference external" href="http://www.gniibe.org/memo/development/gnuk/hardware/stm32-nucleo-f103.html">an article (in Japanese)</a> was published at www.gniibe.org, to resist bulk surveillance.</p>

+<p>This article is English translation of the article. The purpose of this article is to make TRNG (True Random Number Generator). A bit of soldering is required, but it's not that hard, even for a beginner of electronics. We use the board &quot;STM32 Nucleo F103RB&quot;, which is cheap and good. Thanks to Kenji Rikitake to enhance Chopstx to support of this board.</p>

+<div class="section" id="photo-of-the-final-result">

+<h2>Photo of the final result</h2>

+<p>STM32 Nucleo F103RB consists two parts: the dongle (ST-Link/V2-1) and

+the target board of STM32F103.</p>

+<p>In this photo, the dongle (ST-Link/V2-1) is not separated yet, it will